//===----------------------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // https://itanium-cxx-abi.github.io/cxx-abi/abi.html#rtti-layout // Two abi::__pbase_type_info objects can always be compared for equality // (i.e. of the types represented) or ordering by comparison of their name // NTBS addresses. In addition, unless either or both have either of the // incomplete flags set, equality can be tested by comparing the type_info // addresses. // UNSUPPORTED: no-exceptions // UNSUPPORTED: no-rtti // The fix for PR25898 landed in the system dylibs in macOS 10.13 // XFAIL: use_system_cxx_lib && target={{.+}}-apple-macosx10.{{9|10|11|12}} // RUN: %{cxx} %{flags} %{compile_flags} -Wno-unreachable-code -c %s -o %t.one.o // RUN: %{cxx} %{flags} %{compile_flags} -Wno-unreachable-code -c %s -o %t.two.o -DTU_ONE // RUN: %{cxx} %{flags} %t.one.o %t.two.o %{link_flags} -o %t.exe // RUN: %{exec} %t.exe #include #include #include #include // Check that the addresses of the typeinfo differ but still compare equal // via their NTBS. inline void AssertIncompleteTypeInfoEquals(std::type_info const& LHS, std::type_info const& RHS) { assert(&LHS != &RHS); assert(strcmp(LHS.name(), RHS.name()) == 0); } struct NeverDefined; void ThrowNeverDefinedMP(); std::type_info const& ReturnTypeInfoNeverDefinedMP(); struct IncompleteAtThrow; void ThrowIncompleteMP(); void ThrowIncompletePP(); void ThrowIncompletePMP(); std::type_info const& ReturnTypeInfoIncompleteMP(); std::type_info const& ReturnTypeInfoIncompletePP(); struct CompleteAtThrow; void ThrowCompleteMP(); void ThrowCompletePP(); void ThrowCompletePMP(); std::type_info const& ReturnTypeInfoCompleteMP(); std::type_info const& ReturnTypeInfoCompletePP(); void ThrowNullptr(); #ifndef TU_ONE void ThrowNeverDefinedMP() { throw (int NeverDefined::*)nullptr; } std::type_info const& ReturnTypeInfoNeverDefinedMP() { return typeid(int NeverDefined::*); } void ThrowIncompleteMP() { throw (int IncompleteAtThrow::*)nullptr; } void ThrowIncompletePP() { throw (IncompleteAtThrow**)nullptr; } void ThrowIncompletePMP() { throw (int IncompleteAtThrow::**)nullptr; } std::type_info const& ReturnTypeInfoIncompleteMP() { return typeid(int IncompleteAtThrow::*); } std::type_info const& ReturnTypeInfoIncompletePP() { return typeid(IncompleteAtThrow**); } struct CompleteAtThrow {}; void ThrowCompleteMP() { throw (int CompleteAtThrow::*)nullptr; } void ThrowCompletePP() { throw (CompleteAtThrow**)nullptr; } void ThrowCompletePMP() { throw (int CompleteAtThrow::**)nullptr; } std::type_info const& ReturnTypeInfoCompleteMP() { return typeid(int CompleteAtThrow::*); } std::type_info const& ReturnTypeInfoCompletePP() { return typeid(CompleteAtThrow**); } void ThrowNullptr() { throw nullptr; } #else struct IncompleteAtThrow {}; int main(int, char**) { AssertIncompleteTypeInfoEquals(ReturnTypeInfoNeverDefinedMP(), typeid(int NeverDefined::*)); try { ThrowNeverDefinedMP(); assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (int CompleteAtThrow::*) { assert(false); } catch (int NeverDefined::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch NeverDefined::*" ); } AssertIncompleteTypeInfoEquals(ReturnTypeInfoIncompleteMP(), typeid(int IncompleteAtThrow::*)); try { ThrowIncompleteMP(); assert(false); } catch (CompleteAtThrow**) { assert(false); } catch (int CompleteAtThrow::*) { assert(false); } catch (IncompleteAtThrow**) { assert(false); } catch (int IncompleteAtThrow::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow::*" ); } AssertIncompleteTypeInfoEquals(ReturnTypeInfoIncompletePP(), typeid(IncompleteAtThrow**)); try { ThrowIncompletePP(); assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (IncompleteAtThrow** p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow**" ); } try { ThrowIncompletePMP(); assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (IncompleteAtThrow**) { assert(false); } catch (int IncompleteAtThrow::**p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow::**" ); } AssertIncompleteTypeInfoEquals(ReturnTypeInfoCompleteMP(), typeid(int CompleteAtThrow::*)); try { ThrowCompleteMP(); assert(false); } catch (IncompleteAtThrow**) { assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (CompleteAtThrow**) { assert(false); } catch (int CompleteAtThrow::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow::" ); } AssertIncompleteTypeInfoEquals(ReturnTypeInfoCompletePP(), typeid(CompleteAtThrow**)); try { ThrowCompletePP(); assert(false); } catch (IncompleteAtThrow**) { assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (int CompleteAtThrow::*) { assert(false); } catch (CompleteAtThrow**p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow**" ); } try { ThrowCompletePMP(); assert(false); } catch (IncompleteAtThrow**) { assert(false); } catch (int IncompleteAtThrow::*) { assert(false); } catch (int CompleteAtThrow::*) { assert(false); } catch (CompleteAtThrow**) { assert(false); } catch (int CompleteAtThrow::**p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow::**" ); } #if __cplusplus >= 201103L // Catch nullptr as complete type try { ThrowNullptr(); } catch (int IncompleteAtThrow::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch nullptr as IncompleteAtThrow::*" ); } // Catch nullptr as an incomplete type try { ThrowNullptr(); } catch (int CompleteAtThrow::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch nullptr as CompleteAtThrow::*" ); } // Catch nullptr as a type that is never complete. try { ThrowNullptr(); } catch (int NeverDefined::*p) { assert(!p); } catch(...) { assert(!"FAIL: Didn't catch nullptr as NeverDefined::*" ); } #endif return 0; } #endif